Suggestions
Juxi Leitner
Roboticist / LYRO Robotics Co-Founder
Juxi Leitner is a roboticist and entrepreneur who currently serves as the Chief Technology Officer (CTO) and co-founder of LYRO Robotics.12 Here are some key details about his background and expertise:
Education and Academic Career
Juxi Leitner has an extensive academic background in robotics and computer science:
- He holds a PhD in Informatics (AI & Robotics) from the Università della Svizzera italiana (USI)4
- He completed multiple master's degrees, including:
- Master of Science in Space Science and Technology
- Master of Science in Technology (Space Robotics)
- His bachelor's degree is in Software and Information Engineering from TU Wien (Vienna University of Technology)1
Leitner has held academic positions, including:
- Senior Lecturer at Monash University in the Departments of Electrical and Computer Systems Engineering and Mechanical and Aerospace Engineering4
- Research lead for the Manipulation research stream at the Australian Centre of Excellence for Robotic Vision (ACRV)3
Professional Experience
- Co-founder and CTO of LYRO Robotics, a company that develops intelligent robots for pick-and-pack tasks in the supply chain12
- Previously worked at the European Space Agency's Advanced Concepts Team13
- Led the team that won the 2017 Amazon Robotics Challenge25
Research and Expertise
Leitner's research focuses on the intersection of:
- Robotics
- Computer Vision
- Artificial Intelligence (AI) and Machine Learning3
He has published extensively, with over 100 publications and more than 50 invited talks globally.4
Entrepreneurship and Industry Impact
Leitner has been active in transferring fundamental research into practical applications:
- Co-founded LYRO Robotics to commercialize robotic picking and packing solutions35
- Contributed to the Brisbane deep-tech ecosystem by starting Brisbane.AI and the Brisbane robotics interest group3
Juxi Leitner's work combines academic research with practical applications in robotics and AI, focusing on creating intelligent robotic systems for real-world use.